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. 2015 Aug 6;5:12137. doi: 10.1038/srep12137

Table 1.

Alloy q1−1 r1, Å σy,GPa B,GPa G,GPa E,GPa Refs.
Al89La6Ni5 2.541 2.612 1.033       25, 26, 27
Au49Ag5.5Pd2.3Cu26.9Si16.3 2.836 2.816 1.12 132.3 26.5 74.4 28,29
Ca65Mg15Zn20 2.174 3.5 0.364 22.6 10.1 22.4 30,31
Ca60Mg15Cu25 2.239 3.11 0.252       32,33
Cu65Zr35 2.822 2.75 2.019       34,35
Cu64Zr36 2.838   1.944 104.3 34 92 34, 35, 36, 37, 38
Cu61.4Zr38.6 2.801 2.76 1.87       34,35
Cu56Zr44 2.763 2.79 1.82       34,35,39
Cu50Zr50 2.719 2.94 1.772 101.2 31.3 85 34,40, 41, 42
Cu46Zr54 2.674   1.5926 128.5 30 83.5 34,43,44
Cu40Zr60 2.656 2.91 1.333       45,46
Cu33.3Zr66.7 2.564   1.17       46
Cu48Zr48Al4 2.71   1.65 113.7 32.4 88.7 47, 48, 49
Cu47.5Zr47.5Al5 2.72   1.742 113.7 33 87 47, 48, 49
Cu47Zr47Al6 2.72   1.834 113.8 33.8 92.4 47,48,50
Cu46Zr46Al8 2.73 2.94 1.926 116.4 34.3 93.7 50,51
Cu47Ti33Zr11Ni8Si1 2.875 2.75 2   38.3 100 52,53
Cu47Ti33Zr11Ni8Fe1 2.86   2.008   39 102 53,54
Co43Fe20Ta5.5B31.5 3.186 2.53 5.147 209 102.7 268 55, 56, 57, 58
Fe76.0C7.0Si3.3B5.0P8.7 3.025 2.605 3   63.2 165 59
Fe75.7C7.0Si3.3B5.0P8.7Cu0.3 3.025 2.615 3.5   70.58 184.2 59
[(Fe0.5Co0.5)0.75B0.2Si0.05]96Nb4 3.156   4.21   80.46 210 60,61
Fe40Ni40P14B6 2.922   2.23       62,63
Fe66Nb4B30 3.082   4       64,65
Mg65Cu25Gd10 2.519   0.83 46.3 19.3 50.6 13,66
Mg65Cu25Tb10 2.52   0.76 44.7 19.6 51.3 13,67,68
Mg61Cu28Gd11 2.526   1.075       69,70
Ni60Nb37Sn3 2.944   2.8   58.6 198.6 71
Ni60Nb35Sn5 2.962   2.5 267 54.1 183.2 71
Ni60Sn6(Nb0.8Ta0.2)34 2.93   3.5 189 59.41 161.3 72,73
Ni60Sn6(Nb0.6Ta0.4)34 2.917   3.58 197.6 60.1 163.7 72,73
Ni60Pd20P20 2.99 2.57 2.0       74
Ni60Pd20P17B3 2.99 2.57 2.022 181 38 106 75,76
Pd80Si20 2.727 2.79 1.3 182.6 33.4 94.5 77,78
Pd40Ni40P20 2.886 2.65 1.65 184.9 38.6 108 79
Pd40Cu30Ni10P20 2.9 2.75 1.72 146 34.5 92 80, 81, 82
Ti40Zr25Ni3Cu12Be20 2.72   1.8 109.6 35.5 96.2 13
Zr57Ti5Cu20Ni8Al10 2.602 3.11 1.65 99.2 30.1 82 13,83
Zr55Cu35Al10 2.649 2.91 1.74       84
Zr41Ti14Cu12.5Ni10Be22.5 2.84 2.87 1.86 114.7 37.4 101.3 13,85
Zr53.7Cu28.5Ni9.4Al8.4 2.675 2.99 1.85     85
Zr52.5Ti5Cu17.9Ni14.6Al10 2.658 2.96 1.86 114.1 32.3 88.6 13,45
Zr64.13Cu15.75Ni10.12Al10 2.58   1.721 106.63 28.46 78.41 13,86
Zr62Al8Ni13Cu17 2.585   1.46       87
Zr46Cu37.6Ag8.4Al8 2.76 2.83 1.716 115.5 33.8 92.4 88
Zr53.8Cu31.6Ag7Al7.6 2.71   1.518 106 29.9 82 88
Zr48Cu36Al8Ag8 2.66 2.93 1.85   44 115 89
La62Al14(Cu5/6Ag1/6)14(Ni1/2Co1/2))10 2.2 3.66 0.65 41 13 35 13,90,91
Y55Al25Co20 2.23   1.203       13,45,92
La55Al25Co20 2.32   0.989 39.34 15.42 40.9 13,45,92
Pr55Al25Co20 2.35   1.007 43.48 17.35 45.9 13,45,92
Nd55Al25Co20 2.33   0.996       13,45,92
Gd55Al25Co20 2.36   0.734       13,45,92
Tb55Al25Co20 2.35   0.834 50.19 22.85 59.53 13,45,92
Dy55Al25Co20 2.42   0.717 52.22 23.52 61.36 13,45,92
Ho55Al25Co20 2.39   0.869 58.81 25.42 66.64 13,45,92
Er55Al25Co20 2.36   1.117 60.7 27.08 70.72 13,45,92

Summary of the structural information and mechanical properties of BMGs, including first diffraction peak on the S(q) and G(r) curves, yield strength, and elastic moduli. The experimental procedure can be found in refs 35,59,90.

data from the present work.